Advanced Semiconductor Alloy Alxin1-Xp for Engineering and Medicine

Journal of Pharmacy Practice and Community Medicine Pub Date : 2022-09-14 DOI:10.55529/jcpp.25.1.5

D. Srivani, Gurram Vasanth, DR.G.V.S.Subbaroy sarma Dr.G.V.S.Subbaroy Sharma G.V.S.S.Sarma, M. S. Rao, D. Ramesh

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引用次数: 1

Abstract

Doped Advanced semiconductor materials with different properties are useful for early diagnosis and improved treatment in medical research. This is essential for advanced medical technology and lower mortality rates. New research on impurity-doped nano crystals is important. These dopants can directly affect electron transport in semiconductors, tune the optical properties of nano materials in desirable ways, and impart specific properties to the host. In this research report, we first discuss the factors that need to be considered to systematically control the production of these doped semiconductor materials, then describe various doped materials and typical synthetic approaches and techniques. Innovations in nanotechnology and materials design and their application in early diagnosis and treatment are believed to minimize the number of new cases of related diseases and reduce mortality.1,2,3 From natural to man-made materials, Doped semiconductor nanostructures, including inorganic and organic semiconductors, are increasingly attracting the attention of researchers and scientists worldwide

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工程和医学用先进半导体合金Alxin1-Xp

在医学研究中，掺杂不同性质的先进半导体材料可用于早期诊断和改进治疗。这对先进的医疗技术和降低死亡率至关重要。杂质掺杂纳米晶体的研究具有重要意义。这些掺杂剂可以直接影响半导体中的电子输运，以理想的方式调整纳米材料的光学性质，并赋予寄主特定的性质。在本研究报告中，我们首先讨论了系统控制这些掺杂半导体材料的生产需要考虑的因素，然后描述了各种掺杂材料和典型的合成方法和技术。据信，纳米技术和材料设计方面的创新及其在早期诊断和治疗中的应用可最大限度地减少相关疾病的新病例数量，并降低死亡率。1,2,3从天然材料到人造材料，掺杂半导体纳米结构，包括无机和有机半导体，正日益引起全世界研究人员和科学家的关注

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Journal of Pharmacy Practice and Community Medicine

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